A Syringa pinnatifolia genome assembly reveals the zerumbone biosynthesis machinery with a cytochrome P450‐catalysed epoxidation reaction in eudicots.

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المؤلفون: Gao, Jiaqi^1,2 (AUTHOR); Wang, Jing³ (AUTHOR); Wang, Ruishan¹ (AUTHOR); Wang, Jian¹ (AUTHOR); Ma, Ying¹ (AUTHOR); Yang, Jian¹ (AUTHOR); Tai, Badalahu⁴ (AUTHOR); Li, Chongjiu⁵ (AUTHOR); Chai, Xingyun⁶ (AUTHOR); Jiao, Shungang⁶ (AUTHOR); Chen, Tong¹ (AUTHOR); Zheng, Han¹ (AUTHOR); Li, Xiang¹ (AUTHOR); Kang, Liping¹ (AUTHOR); Jiang, Chao¹ (AUTHOR); Zhou, Junhui¹ (AUTHOR); Liu, Juan¹ (AUTHOR) ; Huang, Luqi^1,2 (AUTHOR)
المصدر:
Plant Biotechnology Journal. Sep2024, Vol. 22 Issue 9, p2629-2631. 3p.
الموضوع:
*NEOGENE Period; *PALEOGENE; *BIOCHEMICAL substrates; *CHINESE medicine; *CYTOCHROME P-450; *TERPENES; *CARYOPHYLLENE

معلومة اضافية
- نبذة مختصرة :
  This article presents a study on the genome assembly of Syringa pinnatifolia, a shrub valued in traditional Chinese medicine for its volatile chemical constituents. The researchers aimed to elucidate the biosynthesis pathway of zerumbone, a compound found in S. pinnatifolia with various medicinal properties. Through genome sequencing and analysis, they identified the genes responsible for the production of key compounds in the pathway, including a terpene synthase (TPS) gene and a cytochrome P450 (CYP450) gene. The study provides insights into the biosynthesis of zerumbone in eudicots and expands our understanding of the functions of TPS and CYP450 enzymes. [Extracted from the article]